研究成果

科研项目

1. 国家自然科学基金青年基金,微纳纤维基复合多孔材料的相变传质机理及传热特性研究,2023-2025,主持

2. 中国博士后科学基金,亚稳态聚合物溶液制孔法循环利用棉纺织品的基础研究,2019-2020,主持

3. 中国博士后科学基金一步法构筑染料分解用纤维素多孔整体材料及其应用研究,2016-2017,主持

4. 中国自然科学基金面上项目,基于超声雾化再生和半渗透膜技术的热泵驱动型溶液除湿系统研究,2019-2022,参与

5. 中国自然科学基金面上项目,纤维/气流双向耦合作用下的熔喷微纳米纤维结构演变机制,2018-2021,参与

6. 科技部重点研发计划子课题,基于谱学和显微成像的产品品质检测鉴定技术研究与应用,2021-2025,参与

7. 技术开发项目,消防用单层隔热织物开发,2024,主持

8. 技术开发项目,吸收性护理产品微气候可调节技术开发,2022,主持

9. 技术开发项目, 柔性防刺纺织品开发,2018,主持


学术论文

1. Meng L., et al., A facial method for constructing superhydrophobic surface by one-step surface etching combined with melt blowing process, Chemical Engineering Journal, 2024, 491, 151941.

2. Meng L., et al., Tailoring the Microstructure of Biodegradable PLA/PBS Melt-Blown Nonwovens with Enhanced Mechanical Performance by In Situ PBS Fibrils Formation, Industrial & Engineering Chemistry Research, 2024, 63, 13016-13024. (Cover Article)

3. Su, Y., et al., A green strategy to recycle the waste PP melt-blown materials: From 2D to 3D construction. Waste Management,2023, 157, 159-167.

4. Chen, M., et al., Analysis of crystallization during polypropylene melt-blown fiber formation, Textile Research Journal, 2023, 93(15-16), 3630-3641.

5. Chen, M., et al., A green and facile approach to prepare polylactide/kapok monoliths for a sustainable and reusable oil sorbent, Colloid and Polymer Science, 2023, 301, 1261-1270.

6. Cheng, Y., et al., Influence of the graft-copolymerized hydrophilic lignin content on the structure and mechanical properties of gel-spun poly(vinyl alcohol) composite fibers, Textile Research Journal, 2023, 93(5-6), 1237-1250.

7. Yang, Y., et al., Modification of the Lattice Apron-Type Compact Spinning System with a New Air-Suction Slot for Improving the Yarn Properties, Fibers and Polymers, 2023, 24(4), 1483-1490.

8. Meng, L., et al., Crystallization and Mechanical Properties of the Polylactide Melt Blown Nonwovens, Fibers and Polymers, 2023, 24, 3101-3114.

9. Zou, F., et al., Analysis of polymer jet motion in the non-isothermal melt-blown process, Textile Research Journal, 2022, 92(21-22), 4386-4402.

10. Zou, F., et al., Enhancement of fiber attenuation and filtration quality via electrostatic-induction-assisted melt blowing, Textile Research Journal, 2022, 92(21-22), 4147-4162.

11. Qiao, Y., et al., Identification of human hair wigs and animal hair wigs by the method of near infrared spectroscopy modeling, Textile Research Journal, 2022, 92(19-20), 3838-3843.

 

发明专利

1. 一种染料分解材料及其制备和应用,已授权。

2. 一种高强高韧可降解熔喷非织造材料的制备方法,已授权。


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